US4502468A - Adjustable speculum with incorporated lighting system - Google Patents

Abstract

A speculum includes a combination handle unit and a unitarily formed speculum head. The speculum head includes a portion for engaging a suitably configured handle unit and light-transmissive restraining or contacting members for dilating an orifice and conducting light from a source into the orifice to be examined. The handle unit includes a light source and a head portion suitably configured to accept the engaging portion of the speculum head.

Description

This is a continuation-in-part of my co-pending U.S. patent application Ser. No. 105,509, filed Dec. 20, 1979; now U.S. Pat. No. 4,344,419 U.S. patent application Ser. No. 354,812, filed Mar. 4, 1982; and U.S. patent application Ser. No. 284,484, filed July 17, 1981 now abandoned.

The present invention relates generally to an apparatus for dilating a meatus, orifice, or incision. Certain embodiments disclose specula which provide means for independently adjusting the proximal and distal ends of the restraining members and wherein the restraining members are constructed from a light-transmissive material. The members are used to dilate the meatus, orifice, or incision. The members provide a means for sustaining various desired distances between the distal end thereof and a means for coupling the members to a combination handle and light source.

There are many well-known specula and forceps for enlarging body orifices or incisions for such purposes as examination or surgery. Many of these well-known devices require sterilization between uses; utilize independent light sources to illuminate the dilated meatus, orifice, or incision; or have means for adjustment situated such that the view and/or the ability of the user to examine the incision or orifice is at least partially obstructed. There are, for example, the devices described in the following documents: Molesworth U.S. Pat. No. 400,589; Crockett U.S. Pat. No. 776,302; Joutras U.S. Pat. No. 1,094,575; Radcliff U.S. Pat. No. 2,217,968; Batista U.S. Pat. No. 3,853,120; Marco U.S. Pat. No. 2,544,932; Moore et al. U.S. Pat. No. 3,716,047; Moore et al. U.S. Pat. No. 3,890,961; Smith U.S. Pat. No. 1,706,500; Rose U.S. Pat. No. 3,196,865; Crossley U.S. Pat. No. 1,230,873; Scheaff U.S. Pat. No. 1,222,478; Pitt U.S. Pat. No. 605,652; Gentile French Patent Specification No. 473,451; see also SURGERY, GYNECOLOGY AND OBSTETRICS, Vol. 68, No. 6, Jan. 1939, pp. 1060-63; Fogarty et al U.S. Pat. No. 3,503,398; Galiano U.S. Pat. No. 399,749; Barnadet French Patent Specification No. 641,915; Raffaele Italian Patent Specification No. 246,611; and Pomerene U.S. Pat. No. 1,170,324.

Additionally, there are a number of medical examination instruments that utilize fiber optic or other light transmission techniques to illuminate a body orifice, meatus, or incision, such as the devices illustrated in U.S. Pat. Nos. 3,664,330; 3,762,400; 3,796,214; 3,716,047; 3,890,961; 2,247,258; 4,086,919; 3,851,642; 3,592,199; 3,324,850; 3,131,690; 2,482,971; and 3,978,850.

In accordance with the present invention, a speculum includes a base unit having a handle portion and a head portion, and a speculum head. The speculum head is provided with two blade-like contacting members, a support means, and means for resiliently supporting the contacting members on the support means. Attachment means are provided for removably securing the speculum head to the head portion of the base unit.

Illustratively, the base unit includes a light source for providing light in the head portion of the base unit.

In illustrative embodiments, the speculum head is constructed from a resilient material. The resilient material, in the area forming the blade-like contacting members, is light-transmissive.

Further according to illustrative embodiments, the contacting member support means comprises retainers on the proximal ends of the contacting members and having means for adjusting incrementally the distance between the distal portions of the contacting members. Further according to one illustrative embodiment, means are provided for limiting the maximum distance between the distal portions of the contacting members. Illustratively, the incremental adjustment means comprises two toothed portions selectively and incrementally engageable with each other. Alternatively, the two toothed portions may be selectively and incrementally engageable, each with its own pawl to adjust the contacting members' positions independently of one another.

In accordance with the present invention, an adjustable speculum is provided which is adaptable for use in enlarging and holding open orifices, incisions, and the like of various sizes, shapes, and depths. The speculum permits the user substantially unobstructed access to the orifice for examination and various other functions.

According to the invention, a speculum includes a speculum head having a portion for attachment to a handle, members for restraining and dilating an orifice, each member having a distal end for contacting the walls of the orifice and a proximal end hinged to the handle-attachment portion and means for adjusting and locking the distance between the distal ends of the restraining members.

Further, the present invention provides a speculum having a detachable dilating member which may be of various sizes or shapes and which may be sterilized or disposed of after each use.

Additionally according to the invention, the detachable dilating members are constructed from a light-transmissive material, such as an acrylic-styrene mixture, for use with a combination handle and light source unit. The detachable dilating members are constructed so that light from the source is directed through the light-transmissive material, and the handle and light source unit is constructed to engage the handle-attachment portions of the detachable dilating members frictionally.

Another embodiment in accordance with the invention is a speculum including an examination member for restraining and dilating an orifice, the member having a distal end for contacting the walls of the orifice and a proximal end rigidly attached to a handle-attachment portion.

Further, this last-mentioned embodiment in accordance with the invention provides a speculum having a detachable dilating member which may be of various sizes and shapes and may be sterilized or disposed of after each use.

Additionally, the detachable dilating member of this embodiment is constructed from a light-transmissive material such as an acrylic-styrene mixture, for use with a combination handle and light source unit. The detachable dilating member is constructed so that light from the source is directed through the light-transmissive material, and the handle and light source unit is constructed to engage the handle-attachment portions of the detachable dilating member frictionally.

The invention may best be understood from the following detailed description of certain embodiments thereof. In the description, reference is made to the accompanying drawings which illustrates the invention. In such drawings:

FIG. 1 is an exploded and partly fragmentary perspective view of an apparatus constructed in accordance with the present invention;

FIG. 2 is a top plan view of a portion of the apparatus of FIG. 1;

FIG. 3 is a sectional view of the apparatus of FIG. 1, but assembled, taken generally alongsection lines 3--3 thereof;

FIG. 4 is a perspective view of another apparatus constructed in accordance with the present invention;

FIG. 5 is an end view of the apparatus of FIG. 4, looking generally along section lines 5--5 of FIG. 4;

FIG. 6 is an exploded and partly fragmentary perspective view of another apparatus constructed according to the present invention; and

FIG. 7 is a fragmentary sectional view of the apparatus of FIG. 6, assembled, taken generally alongsection lines 7--7 thereof.

Referring particularly to FIGS. 1-3, aspeculum 2 includes aspeculum head 4 and abase 6 which can be grasped by a physician to manipulate the speculum head. Thebase 6 has a somewhat pistol grip-shapedhandle 8, abottom cap 10 held on byscrews 12, and ahead portion 14. Thehandle 8 serves to hold one ormore batteries 16 which provide a power source. If an alkaline battery is used, the battery can be molded intohandle 8. Such ahandle 8 may have a shelf life of up to five years and a useful life of up to six months. Aswitch 18 controls delivery of power from the batteries.Head 14 is provided with aforward face 20 and agroove 22 which extends longitudinally along both sides ofhead 14.Head 14 provides asocket 24 which receives anelectric light bulb 26.Conductors 28, which illustratively are molded into the plastic material from which head 14 is formed, supply power throughswitch 18 from thebatteries 16 tobulb 26.

As may be seen from FIG. 1, thespeculum head 4 is molded in one piece from a moderately flexible, resilient plastic material which is also highly light-transmissive. Certain acrylic-styrene mixtures are suitable.Head 4 has a pair of blade-like contactingmembers 30, 31, each having adistal end 32, 33 for contacting and retaining a wall of an orifice, and aproximal end 34, 35. Thespeculum head 4 also has asupport portion 41 for supporting the blade-like contacting members and means 39 for attaching thespeculum head 4 to thehead portion 14 of thebase unit 6. The means 39 for attaching thespeculum head 4 to thehead portion 14 of the base unit includes twoprongs 36, 38 provided on thesupport portion 41 of thespeculum head 4 which frictionally engage in thegroove 22 in thehead portion 14 of thebase unit 6.

Thesupport portion 41 of the speculum head also includes two retainingmembers 40, 42. In this embodiment, the retaining members are somewhat L-shaped and have serrated or toothedlower portions 44, 46 that are incrementally and cooperatively engageable with each other. The two retainingmembers 40, 42 are attached to torsion means 21, 23 which are formed unitarily with the retainingmembers 40, 42 and the blade-like contactingmembers 30, 31. The torsion means 21, 23 are formed from a material that is sufficiently resilient to permit it to be adjusted several times without fatiguing or deforming under the stress. When the two retainingmembers 40, 42 are engaged and adjusted incrementally, the distance between the distal ends 32, 33 of the blade-like contactingmembers 30, 31 is increased or decreased, dependent on whether the adjustment of the engagement of the retainingmembers 40, 42 is contractive or expansive. The physician operator makes discrete adjustments to the distance between the distal ends 32, 33 of the blade-like contactingmembers 30, 31, and thereby expands or contracts the orifice, meatus, or incision by manipulation of the retainingmembers 40, 42. The torsion means 21, 23 provide sufficient tension to permit a snug engagement of retainingmembers 40, 42 during such manipulations by the physician operator. Thesupport portion 41 has twostops 48, 49 that are selectively engageable with stop-engagingportions 47, 51 of the blade-like contactingmembers 30, 31 to provide a maximum adjustment of the retainingmembers 40, 42.

The outer edges 50 of the blade-like contactingmembers 30, 31 are beaded or rounded to remove any sharp edges from them and minimize the likelihood of tissue damage from edges 50. The blade-like contactingmembers 30, 31 preferably are constructed from some light-transmissive material, such as an acrylic-styrene blend. Light fromlight source 26, in thebase 6, is directed down the concaveinner surfaces 52, 53 of the blade-like contactingmembers 30, 31 and through the contactingmembers 30, 31 themselves directly into the orifice or incision.

Since thespeculum head 4 is detachable from thebase 6, various sizes and shapes of speculum heads 4 can be provided for thebase 6, depending upon the size, shape, or depth of the orifice, incision, or meatus to be dilated. Furthermore, the blade-like contactingmembers 30 may have theirdistal ends 32 covered with a layer of some material (not shown) which is capable of absorbing body fluids.

FIG. 2 illustrates an adjusted orientation of the blade-like contactingmembers 30, 31 with respect toprongs 36, 38. When the retainingmembers 40, 42 are adjusted incrementally, the distal ends 32, 33 of the blade-like contactingmembers 30, 31 move equidistantly apart with respect to a line Y that is interjacent and parallel to the shaft-engagingprongs 36, 38. The mold joint ofprongs 36, 38 to thesupport portion 41 is such that theouter surfaces 96, 98 ofprongs 36, 38 are at right angles to the support means and parallel and planar with respect to each other. Theprongs 36, 38 are provided withbevels 100, 102 to facilitate the frictional engagement betweenprongs 36, 38 andgroove 22.

With reference to FIG. 3, the retainingmembers 40, 42 are formed such that the serrated or toothedlower portions 44, 46 are positioned behind the surface ofhandle 8 opposite thelight socket 24 ofhead 14. The orientation ofgroove 22 with respect to theforward face 20 ofhead 14 is such that when thespeculum head 4 is attached to handle 8, light fromlight source 28 is directed down the concaveinner surfaces 52, 53 of the blade-like contactingmembers 30, 31.

FIG. 4 illustrates another one-piece speculum head 104 which can be used withhandle 8 illustrated in FIG. 1. Thehead 104 has twoprongs 106, 108 formed unitarily with aU-shaped support member 105 for engaging a head portion likeportion 14 of FIG. 1. The twoprongs 106, 108 are suitably configured to frictionally engagegrooves 22 ofhandle 8. Thespeculum head 104 has two blade-like contactingmembers 110, 112 attached to thesupport member 105. The blade-like contactingmember 110 includes two retainingmembers 114, 116. In the embodiment, the retainingmembers 114, 116 have serrated or toothedinner surfaces 115, 117 that are incrementally and cooperatively engageable withtabs 118, 120 formed on the outer surface of theU-shaped support member 105. The blade-like contactingmembers 110, 112 preferably are constructed from some light-transmissive material such as an acrylic-styrene blend. Light from any suitable light source, preferably thelight source 28 illustrated in FIG. 1, is directed down the concaveinner surfaces 111, 113 of the blade-like contacing members 110, 112 and through the blade-like contactingmembers 110, 112 themselves directly into the orifice or incision.

The two blade-like dilating members 110, 112 are hingedly attached to each other by hinge means 130, 132. The hinge means 130, 132 are unitarily formed with the blade-like dilating members 110, 112 and are resilient strips unitarily formed at one end to the retainingmembers 114, 116, and the other end is unitarily formed with theU-shaped support member 105. The hinge means 130, 132 are formed from a material that has sufficient resiliency to permit numerous operations of thespeculum head 104 without deformation or breakage under the stress.

Edges 122 of the blade-like contactingmembers 110, 112 are beaded or rounded to remove any sharp edges from them and minimize the likelihood of tissue damages fromedges 122. The upper blade-like contactingmember 110 is formed such that anopening 123 is provided at itsend 125 to enable an operator to insert surgical instruments or other devices into the dilated orifice. The lower blade-like contactingmember 112 has measuringlines 129 molded along its length to facilitate making any measurements that may be desired.

Since thespeculum head 104 is detachable fromhandle 8, various sized and shaped speculum heads 104 can be attached to thebase 8, illustrated in FIG. 1, depending upon the size, shape, or depth of the orifice, incision, or meatus to be dilated. Furthermore, the blade-like contacing members 110, 112 may have theirdistal ends 131, 133 covered with a layer of some material capable of absorbing body fluids.

Referring now to FIG. 5, the retainingmembers 114 and 116 are substantially perpendicular to theU-shaped support member 105. As the serratedinner surfaces 115, 117 of the retainingmembers 114, 116 incrementally and cooperatively engage thetabs 118, 120 formed on the outer surface of thesupport member 105, the blade-like contactingmember 110distal end 131 moves away from thedistal end 133 of the blade-like contactingmember 112 in response to the engagement of the retainingmembers 114, 116 with thetabs 118, 120.

Referring now to FIGS. 6 and 7, arectal speculum 60 includes arectal examination head 62 and a base 64 which is substantially similar tobase 6 illustrated in FIG. 1. Therectal examination head 62 has a hollow somewhatconical examination member 66 closed and rounded at itsdistal end 68 and flared and open at itsproximal end 70. Theexamination head 62 also has a means for attaching therectal examination head 62 to thebase 64.

Theentire surface 72 of theexamination member 66, which is constructed at least partially from some light-transmissive material such as an acrylic-styrene blend, is smooth to minimize the likelihood of tissue damage from contact with thesurface 72. Thedistal portion 68 of theexamination member 66 is somewhat narrower in circumference than theproximal end 70 of theexamination member 66. The increase in circumference from thedistal end 68 to theproximal end 70 is achieved by a gradual flaring of theexamination member 66. Atpoint 74, the flare is increased to theproximal lip 76. In normal usage, thedistal end 68 of theexamination member 66 enters the rectum, then the remaining portion of theexamination member 66 is inserted to fully dilate the orifice and thus permit as complete a field of view as possible for the operator. The discomfort and difficulty of dilating the orifice is minimized by having a gradual increase in circumference from thedistal end 68 to theproximal end 70, thereby permitting a gradual dilation of the orifice as theexamination member 66 is positioned.

Therectal examination head 62 has a light-guidingbar 80 that is substantially perpendicular to the longitudinal axis of theexamination member 66. Thelight bar 80 has a light-receivingoptical portion 82 and a light-emittingoptical surface 84. Therectal examination head 62 also has adiffusion portion 86 adjacent to thelight bar 80 and substantially perpendicular to the longitudinal axis of theexamination member 66. In use,surface 84 is a major surface from which light rays transmitted through thelight bar 80 exceed the critical angle. Thus, the majority of the light which enters thebar 80 exits throughsurface 84. The light emitted from the light-emittingoptical surface 84 is somewhat directional rather than scattered and the light can be directed toward the field being examined. Thediffusion portion 86 aids in diffracting any scattered rays directed back into the eyes of the operator.

The means for attaching therectal examination head 62 to thebase 64 includes twoprongs 88, 90 unitarily formed with theproximal portion 70 of theexamination member 66.Prongs 88, 90 frictionally engage in thegroove 92 in thehead portion 94 of thebase 64.

Claims (5)

What is claimed is:

1. A speculum comprising

a base unit having a handle portion and a head portion, said head portion comprising a first front surface and two side surfaces adjacent the front surface,

a light source mounted in the base unit for providing light in the head portion of the base unit,

a speculum head constructed from a resilient material, the speculum head having two blade-like contacting members for dilating an orifice, a support means, and moving mounting means movably mounting the contacting members on said support means, said movable means including two posts, each contacting member being unitarily formed with one of the resilient posts for flexible resilient movement generally about the axis of its repective post upon urging by an operator, releasing of the contacting member urging forces permitting the contacting members to return to their undeflected positions, and

attachment means removably securing the speculum head to the head portion of the base unit adjacent the light source, said attachment means including means providing grooves extending at least partially across said two side surfaces, said speculum head including a proximal end portion complementarily configured to the grooves for insertion into the grooves.

2. The speculum of claim 1 wherein the two blade-like contacting members are constructed at least partially from some light-transmissive material.

3. The speculum of claim 1 wherein the contacting member support means further comprises retaining members fixed to the proximal end of the contacting members and having means for adjusting incrementally the distance becween the distal portions of the contacting members, and means for limiting the maximum distance between the distal portions of the contacting members.

4. The speculum of claim 3 wherein the incremental adjustment means comprises two serrated toothed portions selectively and incrementally engageable with each other.

5. The speculum of claim 3 wherein the limiting means comprises a stop attached to a retaining member defining a maximum adjustment position of the incremental adjustment means.

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